Volume 36, Nº 12 (2016)

A model is proposed for harmonic gear drives. The model takes into account that harmonic engagement involves multiple pairs and multiple zones and also takes account of the manufacturing and assembly errors, the deformation of the drive components, and the adjustment of the gaps in the engagement under load. By means of the model, harmonic gear drives with high torsional rigidity may be designed.

Analytical formulas are obtained for the thermal state of a bearing with oil–air lubrication; the viscosity class of the lubricant is taken into account. Recommendations are made regarding the structure of the oil-supply channels and the sealing of the frictional module.

In complete surface plastic deformation, the influence of the reduction on the residual stress and its distribution in long shafts is investigated.

The cutting of granite by a polycrystalline diamond tool is studied, so as to determine the force required in the process. This information is needed in the design of a test bench that may be used in certification of rock-cutting tools.

A multipurpose grinding and milling center for machining the blades of gas-turbine engines is described. The characteristics of a prototype Russian SXS735TC2 multifunctional system are presented. The individual components of the system are analyzed.

The parametric self-excitation of a dynamic end-milling machine is considered. Parametric selfexcitation, accompanied by stability loss, significantly impairs the properties of the system. The factors affecting parametric self-excitation include the cutting conditions—in particular, the tool speed—and the tool geometry, which determines the orientation of the cutting forces. Some regions of stability during parameter variation are noted.

Attention focuses on the fast drilling of small-diameter holes by core flat drills, hard-alloy drills, and unidirectional drills with the supply of working fluid to the cutting zone. Means of improving the productivity are discussed. The best approach to drilling small-diameter holes is outlined.

Experimental data are presented regarding the influence of residual deformation after abrasive machining and centrifugal finishing on ball-bearing assembly.

The proposed mathematical model permits assessment of the uncertainties in measuring the profile of compressor blades in a gas-turbine engine. The following geometric parameters may be calculated by means of the model: the radius of the input and output edges; the maximum profile thickness; the profile thickness at the input and output edges; and the chord width. The model may be used to determine the probability characteristics of the uncertainties in measuring the compressor-blade profile in a gas-turbine engine.